Acoustic Source Localization Based on the Two-Level Data Aggregation Technology in a Wireless Sensor Network

Acoustic Source Localization Based on the Two-Level Data Aggregation Technology in a Wireless Sensor Network

The inherent energy constraints of sensor nodes render energy efficiency optimization a critical challenge in wireless sensor network deployments. This study presents an innovative acoustic source localization framework incorporating a two-level data aggregation technology, specifically designed to...

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Bibliographic Details
Main Authors: Yuwu Feng, Guohua Hu, Lei Hong
Format: Article
Language:English
Published: MDPI AG 2025-04-01
Series:Sensors
Subjects:
wireless sensor network
acoustic source localization
mixed noise model
data redundancy
data aggregation
energy consumption
Online Access:https://www.mdpi.com/1424-8220/25/7/2247
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Summary:The inherent energy constraints of sensor nodes render energy efficiency optimization a critical challenge in wireless sensor network deployments. This study presents an innovative acoustic source localization framework incorporating a two-level data aggregation technology, specifically designed to minimize energy expenditure while prolonging network lifetime. A mixed noise model is proposed to describe the characteristics of abnormal noise in real environments. Subsequently, the novel two-level data aggregation technology is proposed. The first level is implemented at individual sensors, where a large number of similar measurements may be collected. The second level data aggregation technology is performed at the cluster head nodes to eliminate the data redundancy between different sensor nodes. After the novel two-level data aggregation, most of the redundant data are eliminated and a significant amount of energy is saved. Then, a nonlinear iterative weighted least squares algorithm is applied to complete the final acoustic source location estimation based on the real remaining sensor measurements. Finally, through extensive simulation experiments, it was verified that the two-level data aggregation technology reduced energy consumption by at least 51% and 43%, respectively, and that the RMSE is less than 0.96.
ISSN:1424-8220

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